EEE-FK1A242SQ

Polarization:	Polar
Package / Case:	Radial, Can - SMD
Mounting Type:	Surface Mount
Surface Mount Land Size:	0.531" L x 0.531" W (13.50mm x 13.50mm)
Height - Seated (Max):	0.551" (14.00mm)
Size / Dimension:	0.492" Dia (12.50mm)
Lead Spacing:	--
Ripple Current @ High Frequency:	1.1A @ 100kHz
Ripple Current @ Low Frequency:	825mA @ 120Hz
Applications:	Automotive
Ratings:	AEC-Q200
Series:	FKS
Operating Temperature:	-55°C ~ 105°C
Lifetime @ Temp.:	5000 Hrs @ 105°C
ESR (Equivalent Series Resistance):	--
Voltage - Rated:	10V
Tolerance:	±20%
Capacitance:	2400µF
Moisture Sensitivity Level (MSL):	--
Part Status:	Active
Lead Free Status / RoHS Status:	--
Packaging:	Tape & Reel (TR)

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Aluminum Electrolytic Capacitors

Aluminum electrolytic capacitors are electronic components that store and release electrical energy. They are used for a variety of purposes, from filter circuits to dehumidifiers, in virtually every type of electronic device. The specific device of focus here is the EEE-FK1A242SQ application field, which is used primarily in signals and power applications. This device is known as an electrolytic capacitor, which means that it contains a membrane of inert electrolyte between a pair of electrodes. This membrane acts to store charge and can be discharged and recharged.The general operation of this type of capacitor is quite simple. A voltage is applied across the capacitor, which causes charge to build up in the form of a “coulomb” of electrons in the electrolyte. The charge is then stored in the form of electrons, which can be discharged at a later time as needed. The EEE-FK1A242SQ application field consists of an anode and a cathode, with the electrolyte placed in between them. The anode is made of aluminum, while the cathode is made of a metallic oxide. As a voltage is applied to the capacitor, current passes through the electrolyte, breaking down the oxide layer and allowing electrons to be stored, accumulating charge on the capacitor. When the current stops, the electrons trapped in the oxide layer form the negative charge on the capacitor. This is known as electrostatic charge and is the basis of capacitor operation.When a capacitor is used, the stored charge can be quickly released. This is usually done by connecting the capacitor to an inductor or resistor, allowing the stored charge to be discharged through these components. This allows for more precise control of the output voltage, and can also be used to filter out noise. The EEE-FK1A242SQ application field is designed to handle up to 125 volts and has an operational temperature range of -55°C to +105°C. This type of capacitor is commonly used in high-power applications where it is necessary to store large amounts of energy and discharge it quickly. They are also commonly used in switching power supply and other power electronics applications, as well as in audio applications, where they provide a higher quality and clarity of sound. In summary, the EEE-FK1A242SQ application field is an aluminum electrolytic capacitor designed for use in high-power applications where large amounts of energy need to be discharged quickly. The capacitor contains a membrane of inert electrolyte between a pair of electrodes, which allows it to store large amounts of electrons and quickly release them when necessary. This makes them ideal for power electronics, audio applications, and other applications where precision control of the output voltage is needed.

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